Jefferson Lab Applied Technology · 2019-12-20 · Surface Processing Microfabrication Investigate...

FEL Industrial Uses

Laser glaze and anneal surfaces

Carburize and nitride surfaces

Create 3D patterns for Micro-Electro-Mechanical no dark Systems

Surface Processing

Microfabrication

Investigate mechanisms for photodynamic cancer therapy

FEL Medical UsesLight Therapy

Evaluate the potential use of Terahertz light for applications such as land mine detection

Defend Navy fleets using infrared light

Fabricate ceramic components for miniature satellites using ultraviolet FEL light

FEL Defense Uses

Army

Navy“An FEL is the only electrically powered device which offers the potential for MW power at any desired wavelength with inherently good bandwidth and unlimited run time. It will be the critical enabler of many ground-based, ship-based, and potentially space-based missions and applications."- FEL report to the DOD Joint Technology Office, June 2001

Air Force

Nanotube productionHigh quality thin film production

Electronic Materials / Nanotubes

FEL Material Science / Nano Science Uses

Jefferson Lab Applied Technology operated by Jefferson Science Associates, LLC

T h o m a s J e f f e r s o n N a t i o n a l A c c e l e r a t o r F a c i l i t ywww.jlab.org • 757-269-7100

Breast Imaging

Small Animal Imaging

Medical Imaging Detector Uses

mammogram image gamma-ray image

Some Jefferson Lab-developed patents are licensed to a small business, Dilon Technologies, as a diagnostic breast imaging tool to aid when mammograms are inconclusive and for high-risk patients.

Thomas Jefferson National Accelerator Facility, Oak Ridge National Laboratory (ORNL) and Johns Hopkins University (JHU) have been collaborating on the development of a system for imaging in un-anesthetized, unrestrained mice. Basic research into human disease states and pharmaceutical development depend heavily on biomedical investigations involving animal models. But studies are limited by the necessity of using anesthetic and/or physical restraint during imaging. Jefferson Lab technology has been used in an awake animal study. Unique mouse brain studies of gamma-ray emitting molecules are now underway at JHU with this never before available technology. This methodology is now being extended to explore new ways to facilitate radioisotope imaging for plant biologists involved in bio-fuel and environmental research.